US1567018A - Grinding-machine-spindle bearing - Google Patents

Grinding-machine-spindle bearing Download PDF

Info

Publication number
US1567018A
US1567018A US402891A US40289120A US1567018A US 1567018 A US1567018 A US 1567018A US 402891 A US402891 A US 402891A US 40289120 A US40289120 A US 40289120A US 1567018 A US1567018 A US 1567018A
Authority
US
United States
Prior art keywords
spindle
bearing
sleeve
housing
grinding
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US402891A
Inventor
Amsden Sidney Harold
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Saint Gobain Abrasives Inc
Original Assignee
Norton Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Norton Co filed Critical Norton Co
Priority to US402891A priority Critical patent/US1567018A/en
Application granted granted Critical
Publication of US1567018A publication Critical patent/US1567018A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24BMACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
    • B24B41/00Component parts such as frames, beds, carriages, headstocks
    • B24B41/04Headstocks; Working-spindles; Features relating thereto

Definitions

  • My invention relates to bearings for high speed spindles, such as'the wheel spindles of grinding machines, and, more particularly, to a bearing construction adapted for use in internal grinding operations.
  • the wheel spindles used in internal grinding are driven at a high speed and must run true to avoid chatter marks on the work.
  • they are provided with oppositely tapered bearing portions, which are supported in correspondingly tapered bear ing bushings, the latter being made adjustable to take up the wear.
  • Some difiiculty has been experienced in adjusting these bushings at all times, e. g., while'the spindle is running and the wheel is in engagement with the work, and especially has this been the case with the adjustment of the bearing adjacent the grinding wheel.
  • Fig. 2 shows a rear end view of the fixture with the pulley removed
  • Fig. 3 shows a cross section on the line 33 of Fig. 1 looking in the direction of the arrow.
  • a spindle'fixture adapted for internal grindlng operations, comprising a spindle 1, herein shown as carrying a grlnding whee12 atone end and a pulley 3 at the opposite end.
  • the spindle is mounted to rotate in a housing 4, adapted to be fitted to the particular part of the grinding machine with which it Is designed'to be utilized.
  • the spindle mounted in a housing especially adapted to be mounted on-the swivel head of a universal grinding machine.
  • the spindle is preferably tapered oppositely adjacent its ends, as at 5 and 6, and these tapered portions run in correspondingly tapered bearings 7 and 8 suitably carried in the housing 4.
  • Bearing 7 may be relatively 'fixed with reference to the housing, while bearing 8 is connected to the spindle, and means is provided for moving the bearing 8 and the spindle to adjust the spindle to the bearing 7.
  • the rear radial bearing 8 is connected to move longitudinally with the spindle 1 and this connection is effected conveniently by forming this hearing 8 as'a tapered sleeve engaging the similarly tapered portion 6 on the spindle, the
  • sleeve being telescoped into an intermediate sleeve 15 and connected thereto adjust-ably by means, such as a screw threaded connection- 16, provided withja lock nut 17.
  • This intermediate sleeve cooperates with a flange 18 on the spindle to take the thrust of the spindle in one direction and is telescoped into an outer sleeve 20 and connected thereto by a connection similar to the connection between inner sleeve 8 and sleeve 15, such as the 'screw threaded connection 21 and lock nut 22.
  • the outer sleeve carries at its forward end an inwardly extending flange 23 adapted to receive the thrust of the spindle 1 in the other direction. .Thlrust.
  • washers 24 and 25 are provided on opposite sides of the flange 18, between it and the sleeve 15 and flange 23 on sleeve 20 respectivel
  • the outer sleeve 20 fits slidably into the ore at the rear end of the housings and is heldfrom rotating relatively thereto by a keyed connection 9.
  • The'rear end of the sleeve-2O isscrew threaded'as 'at 19 and normally projects beyond the housmg.
  • the screw threaded part forms part of the means for moving thesleeve 20 and hence the rear bearings and spindle 1 relati ve to the housing 4 to adjust the front bearing, and to this end it is engaged by a knurled nut 26 1 preferably of slightly larger diameter than the housing so as to be readlily grasped by the hand of the operator.
  • This nut bears against the rear end of the housing and is held thereagainst'by'a web 27 fitting against the rear of the nut and,
  • I may use a set'screw 31 and to permit ready manual operation thereof I may construct it with a knurled head, as shown.
  • the rear tapered portion of the spindle is preferably extended to receive the driving pulley 3 suitably connected thereto and held in placebv the nut 32 engaging the too rapidly and'if. so, by my screw threaded end of the spindle. To the forward end of the spindle is secured the grinding wheel 2, held in place by the.
  • cal bearing sleeve 8 are first adjusted to give the proper pressure in. these bearings and thereafter these will require little attention becausenot subject to the strains and wear of the forward bearing sleeve 7 and because the distance between the thrust and rear radial bearings is relatively small, so no adjustment need be made for the expansion of the spindle when it becomes warm. If the front bearing 7 be tight at the start when the spindle is cold, as the. spindle warms up and in doing so expands, this hearing might become so hot as to seize the spindle.
  • the housing is preferably made in two parts for convenience of manufacture, said parts consisting of a body portion 39 and a nose portion 40.
  • the operator- I can quickly change one for the other by the removal of the wheel-holding flange 34 v and ⁇ the screws 30- holding the web 27 in place, thus changing the fixture to suit the grinding operation in a minimum of time work, and that I provide a readily operable means for adjusting the bearings and particular'ly the front hearing, which is subject to the greatest wear and any side play which at once affects the work.
  • a grinding machine spindle fixture comprising a housing, a spindle having oppositely tapered bearing" portions within and. a driving pulley at the other, bearing.
  • said housing a bearing for one of said tapered portions adapted to be held immovable relative to the housing, amovable bearing connected with the spindleto move 1on -gitudinally therewith for the other of said tapered portions, means for moving said movable bearing with the spindle to adjust the fit between the immovable bearingand the spindle and means to adjust the movable bearing relative to the spindle for both radial and longitudinal Wear.
  • Amgrinding machine spindle fixture comprising ahousing, a spindle therein having-a tapered bearing portion'adjace'nt one end thereof, a bearing for said ta ered portion adapted to be held immovab e relative to the housing, adjustable thrust'and radial bearings for said spindle adjacent its other end arranged to move longitudinally with the spindle and be adjusted for radial wear, and readily accessible means for moving said movable bearings and s indle to adjust the fit between the immova le bearing. and the spindle.
  • the latter comprisin portions adjacent and tapering towards the. ends of the spindle, front and rear bearing sleeves for said bearing portions, the front sleeve adjacent the wheel being fixed, a membercarrying the rear sleeve which is slidable longitudinally only of the housing and connected tothe spindle to move it axially, readily accessible means to move said member to adjust the front bearing and means to adjust the rear sleeve to take up both radial and longitudinal wear.
  • A' grinding machine spindle fixture comprising a housing, a spindle having a tapered bearing portion adjacent one end mounted therein, bearings for said spindle, one of said bearings being tapered to fit the tapered portion of the spindle and adapted to be held immovable relative to the housing, the other of said bearings being built up of a plurality of telescoping sleeves to form a thrust and radial bearing, the outer 'of said sleeves being mounted for slidin movement longitudinally of the housing, and means comprising screw threads on the outer sleeve and a nut engaging said screw threads and held against endwise movement for sliding the outer sleeve and moving said bearing and spindle longitudinally to adjust the tapered bearing.
  • a grinding machine spindle fixture comprising a housing, a spindle having bearing portions adjacent to and tapering towards the endsthereof, a flange, on said spindle adjacent its rear end, a'fixed bearing for the front end of the spindle, a movable bearing for the opposite end of the spindle, 1
  • the latter comprising a plurality of telescoping sleeves, the inner of said sleeves.
  • a grinding machine spindle fixture comprising a housing, a spindle having bearing portions adjacent to and tapering towards the ends thereof, a fixed bearing for the front end of the spindle, a movable bearing for the opposite end of the spindle,
  • a grinding machine spindle-fixture s. HAROLD AMSDEN.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Constituent Portions Of Griding Lathes, Driving, Sensing And Control (AREA)

Description

- %Z a QQ 3W,
Dec. 22 192s- 1,567,018
S.H.AMSDEN GRINDING MACHINE SPINDLE BEARING Filed August 11 1920 .26 y 32 3s 0 39 v 2a 2 2 /7 3 35 3 l3 l2 4 if /8 1 5 8 6' 3/ Z8 hzmewes. I Jfiaraid flmsde/L Patented Dec. 22, 1925.
UNITED. STATES.
PAT N OFFICE.
sIoNnYnARoLn amsnmv, or woncnsrnn, MASSACHUSETTS, nssrenorc. 'ro non'ron oomrm, or woaonsrnn, MASSACHUSETTS, A CORPORATION or MASSACHU- SETTS.
enmnme-mcninn-srmnnn BEARING.
Application filed August 11, 1920. Serial No. 402,891.
To all whom a m oonoem:
Be it known that I, SIDNEY HAROLD AMS- DEN, a citizen of the United States of America, residing at Worcester, in the county of Worcester and State of Massachusetts, have invented certain new and useful Improve-- ments in Grinding-Machine-Spindle Bearings, of which the'following is a full, clear, and exact specification.
My invention relates to bearings for high speed spindles, such as'the wheel spindles of grinding machines, and, more particularly, to a bearing construction adapted for use in internal grinding operations. I
The wheel spindles used in internal grinding are driven at a high speed and must run true to avoid chatter marks on the work. In some cases they are provided with oppositely tapered bearing portions, which are supported in correspondingly tapered bear ing bushings, the latter being made adjustable to take up the wear. Some difiiculty has been experienced in adjusting these bushings at all times, e. g., while'the spindle is running and the wheel is in engagement with the work, and especially has this been the case with the adjustment of the bearing adjacent the grinding wheel. It is frequently necessary, however, to make 'an adjustment of the bearings in spindles of this type after the machine has been running for some time and the bearings become too warm, because of the expansion of the spindle or from other causes, and also to adjust the bearings for wear. .Because of the difliculty of adjusting the bearings while the machine is grinding in the constructions heretofore known, it becomes necessary to stop. the machine, or at least to remove the wheel and spindle from the work, in order to allow the proper adjustment tobe made, thereby consuming much time and cutting down production.
It is an object of my invention to overcome these objections by providin'g an internal grinding spindle hav ng a tapering bearing adjacent the wheel with means ad acent the opposite end of the spindle for quickly and accurately adjustingthe said bearin at all times, without the necessity of stopping the grinding operation.
It is a further object of my invention to provide a spindle having bearings, one of which is tapered and the other of which is connected to move longitudinally with the spindle, whereby movement of the spindle grinding spindle fixture, the section being taken approximately along the. line 1-1 of Fig. 2;
Fig. 2 shows a rear end view of the fixture with the pulley removed; and
Fig. 3 shows a cross section on the line 33 of Fig. 1 looking in the direction of the arrow.
In the practice of my invention, I have provided a spindle'fixture adapted for internal grindlng operations, comprising a spindle 1, herein shown as carrying a grlnding whee12 atone end and a pulley 3 at the opposite end. The spindle is mounted to rotate in a housing 4, adapted to be fitted to the particular part of the grinding machine with which it Is designed'to be utilized. I
have shown the spindle mounted in a housing especially adapted to be mounted on-the swivel head of a universal grinding machine. The spindle is preferably tapered oppositely adjacent its ends, as at 5 and 6, and these tapered portions run in correspondingly tapered bearings 7 and 8 suitably carried in the housing 4.. Bearing 7 may be relatively 'fixed with reference to the housing, while bearing 8 is connected to the spindle, and means is provided for moving the bearing 8 and the spindle to adjust the spindle to the bearing 7. 7
It is a parent that when the grinding wheel is ed into "the work, lateral pressure,
dependent on the depth of cut, produces corresponding side thrust on the spindle, with a consequent rapid wearing away of the tapered bearing adjacent the wheel. It is,
therefore, important that provision be made for quickly and easily adjusting the bearing to take up for wear. This ease of adjustment is further made necessary to avoid sticking of thespindle due to its expansion after becoming warm it the bearings should happen to be too tightly adjusted at the start.
- sleeve snugly fitting a counterbore 123at the front end of the housing 4 and held in place by pointed set screws 13 engaging corresponding recesses 14 in the sleeve. Since this hearing sleeve, as shown, is fixed relative to the housing, it becomes necessary to move the spindle longitudinally to adjust the fit of the bearing. This longitudinal movement. is not large enough to affect the work being operatedon.
As previously stated, 'the rear radial bearing 8 is connected to move longitudinally with the spindle 1 and this connection is effected conveniently by forming this hearing 8 as'a tapered sleeve engaging the similarly tapered portion 6 on the spindle, the
sleeve being telescoped into an intermediate sleeve 15 and connected thereto adjust-ably by means, such as a screw threaded connection- 16, provided withja lock nut 17. This intermediate sleeve cooperates with a flange 18 on the spindle to take the thrust of the spindle in one direction and is telescoped into an outer sleeve 20 and connected thereto by a connection similar to the connection between inner sleeve 8 and sleeve 15, such as the 'screw threaded connection 21 and lock nut 22. The outer sleeve carries at its forward end an inwardly extending flange 23 adapted to receive the thrust of the spindle 1 in the other direction. .Thlrust.
washers 24 and 25 are provided on opposite sides of the flange 18, between it and the sleeve 15 and flange 23 on sleeve 20 respectivel The outer sleeve 20 fits slidably into the ore at the rear end of the housings and is heldfrom rotating relatively thereto by a keyed connection 9. The'rear end of the sleeve-2O isscrew threaded'as 'at 19 and normally projects beyond the housmg. The screw threaded part forms part of the means for moving thesleeve 20 and hence the rear bearings and spindle 1 relati ve to the housing 4 to adjust the front bearing, and to this end it is engaged bya knurled nut 26 1 preferably of slightly larger diameter than the housing so as to be readlily grasped by the hand of the operator.
This nut bears against the rear end of the housing and is held thereagainst'by'a web 27 fitting against the rear of the nut and,
having an extension 28 at right angles therea to which is suitably fastened to the housing as by means of a dowel pin 29 and screws 30. To look the nut in any adjusted position, I may use a set'screw 31 and to permit ready manual operation thereof I may construct it with a knurled head, as shown.
The rear tapered portion of the spindle is preferably extended to receive the driving pulley 3 suitably connected thereto and held in placebv the nut 32 engaging the too rapidly and'if. so, by my screw threaded end of the spindle. To the forward end of the spindle is secured the grinding wheel 2, held in place by the.
flanges '33 a'nd34, the latter engaging a screw thread on the end of the spindle.
I have shown a suitable means for oiling the-spindle bearings consisting of a series of circumferential grooves 35 on the outside of the bearing sleevesand conduits 36 ex tending therefrom throughthe sleeves andfrom the outside of the housing 4 to the groove on the sleeve next thereto, these grooves and.- conduits fonming continuous passages leading from the outside of the housing to the spindle. I have shown the rear oil passage as supplied from, an oil cup 37 and at the forward hearing I have shown thrust bearing sleeve 15 and the rear coni-.
cal bearing sleeve 8 are first adjusted to give the proper pressure in. these bearings and thereafter these will require little attention becausenot subject to the strains and wear of the forward bearing sleeve 7 and because the distance between the thrust and rear radial bearings is relatively small, so no adjustment need be made for the expansion of the spindle when it becomes warm. If the front bearing 7 be tight at the start when the spindle is cold, as the. spindle warms up and in doing so expands, this hearing might become so hot as to seize the spindle. However, an experienced operator can readily .tell whether the bearing heats up I construction he merely rotates the nut 26 w iich moves the spindle endwise until the proper fit is obtain'ed between the-tapered portion 5 and the bearing sleeve 7, all of which canbe done while thespindle is runnin thus saving considerable time. When t e bearings have been properly adjusted, he looks the nut 26 by rotating theset screw 31 into engagement therewith. As the bearing sleeve 7 becomes worn, he makes the necessary adjustment from time to time to take up the wean. l
My device assembled, for, starting with the spindlel,
is readily assembled and'disthe thrust bearing and the rear tapered bear: 1
ing are assembled thereon and the" adjusting nut 26 screwed onto the outer sleeve 20,
after which the pulley 3 may be fastened in place. The whole is then placed into the rear end of the spindle housing, after which the web 27 is fastened in place to hold the parts in the housing 4. The Wheel 2 may now-be placed in position on the front end of the spindle, the front bearing sleeve -7 having been first fastened in the counterbore 12 of the housing. Thehousing is preferably made in two parts for convenience of manufacture, said parts consisting of a body portion 39 and a nose portion 40. By havmg on hand spindles of different lengths hav-,
ing the rearend thrust bearing assembled thereon and also nose portions 40 corresponding to the spindle length,.the operator- I can quickly change one for the other by the removal of the wheel-holding flange 34 v and {the screws 30- holding the web 27 in place, thus changing the fixture to suit the grinding operation in a minimum of time work, and that I provide a readily operable means for adjusting the bearings and particular'ly the front hearing, which is subject to the greatest wear and any side play which at once affects the work.
' While I have shown and described one specific embodiment of my invention, it will be evident that changes can be madevby those skilled inthe art .without departing from its spirit and scope as expressedin the claims,- and I do not wish to be otherwise limited to the details herein disclosed.
That I claim as new, and desire to scour by Letters Patent, is; V v
1. A grinding machine spindle fixture comprising a housing, a spindle having oppositely tapered bearing" portions within and. a driving pulley at the other, bearing.
said housing, a bearing for one of said tapered portions adapted to be held immovable relative to the housing, amovable bearing connected with the spindleto move 1on -gitudinally therewith for the other of said tapered portions, means for moving said movable bearing with the spindle to adjust the fit between the immovable bearingand the spindle and means to adjust the movable bearing relative to the spindle for both radial and longitudinal Wear.
7 2. Amgrinding machine spindle fixturecomprising ahousing, a spindle therein having-a tapered bearing portion'adjace'nt one end thereof, a bearing for said ta ered portion adapted to be held immovab e relative to the housing, adjustable thrust'and radial bearings for said spindle adjacent its other end arranged to move longitudinally with the spindle and be adjusted for radial wear, and readily accessible means for moving said movable bearings and s indle to adjust the fit between the immova le bearing. and the spindle.
comprising a spindle housing, a spindle thereln having a grinding wheel -,at one. end
, the latter comprisin portions adjacent and tapering towards the. ends of the spindle, front and rear bearing sleeves for said bearing portions, the front sleeve adjacent the wheel being fixed, a membercarrying the rear sleeve which is slidable longitudinally only of the housing and connected tothe spindle to move it axially, readily accessible means to move said member to adjust the front bearing and means to adjust the rear sleeve to take up both radial and longitudinal wear.
4. A' grinding machine spindle fixture comprising a housing, a spindle having a tapered bearing portion adjacent one end mounted therein, bearings for said spindle, one of said bearings being tapered to fit the tapered portion of the spindle and adapted to be held immovable relative to the housing, the other of said bearings being built up of a plurality of telescoping sleeves to form a thrust and radial bearing, the outer 'of said sleeves being mounted for slidin movement longitudinally of the housing, and means comprising screw threads on the outer sleeve and a nut engaging said screw threads and held against endwise movement for sliding the outer sleeve and moving said bearing and spindle longitudinally to adjust the tapered bearing.
5. A grinding machine spindle fixture comprising a housing, a spindle having bearing portions adjacent to and tapering towards the endsthereof, a flange, on said spindle adjacent its rear end, a'fixed bearing for the front end of the spindle, a movable bearing for the opposite end of the spindle, 1
the latter comprising a plurality of telescoping sleeves, the inner of said sleeves.
tapering to form a radial bearing for the spindle and others of said sleeves cooperating with the flange on the spindle to form a thrust bearing therefor, and means for moving said sleeves andspindle longitudinally to adjust the front bearing.
6. A grinding machine spindle fixture comprising a housing, a spindle having bearing portions adjacent to and tapering towards the ends thereof, a fixed bearing for the front end of the spindle, a movable bearing for the opposite end of the spindle,
ably mounted in the ousing, a second sleeve longitudinally movable therein, a ,flange on the spindle between and movable by said sleeves, a tapered bearin within the inner sleeve which is adjusta le for wear and means to move the assembled sleeves and spindle to adjust the front bearing. 3. A grinding machine spindle-fixture s. HAROLD AMSDEN.
an outer sleeve slid-
US402891A 1920-08-11 1920-08-11 Grinding-machine-spindle bearing Expired - Lifetime US1567018A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US402891A US1567018A (en) 1920-08-11 1920-08-11 Grinding-machine-spindle bearing

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US402891A US1567018A (en) 1920-08-11 1920-08-11 Grinding-machine-spindle bearing

Publications (1)

Publication Number Publication Date
US1567018A true US1567018A (en) 1925-12-22

Family

ID=23593706

Family Applications (1)

Application Number Title Priority Date Filing Date
US402891A Expired - Lifetime US1567018A (en) 1920-08-11 1920-08-11 Grinding-machine-spindle bearing

Country Status (1)

Country Link
US (1) US1567018A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2423479A (en) * 1941-12-01 1947-07-08 Brown Instr Co Measuring, recording, and controlling apparatus
US2442202A (en) * 1943-09-03 1948-05-25 Gen Register Corp Bearing
US2569313A (en) * 1947-01-16 1951-09-25 Chris A Horn Bearing mounting for rotary tool units
US2822223A (en) * 1954-04-08 1958-02-04 Arthur Offen Developments Ltd High speed bearings

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2423479A (en) * 1941-12-01 1947-07-08 Brown Instr Co Measuring, recording, and controlling apparatus
US2442202A (en) * 1943-09-03 1948-05-25 Gen Register Corp Bearing
US2569313A (en) * 1947-01-16 1951-09-25 Chris A Horn Bearing mounting for rotary tool units
US2822223A (en) * 1954-04-08 1958-02-04 Arthur Offen Developments Ltd High speed bearings

Similar Documents

Publication Publication Date Title
US2257619A (en) Crank pin grinder
US1567018A (en) Grinding-machine-spindle bearing
US2014679A (en) Reaming apparatus
US2212223A (en) Vertical spindle
US2354296A (en) Grinding machine
US1868385A (en) Means for adjusting register of machine parts
US2383991A (en) Die holder and tailstock center
US1402794A (en) High-speed bearing
US1821331A (en) Tailstoce
US2141491A (en) Lapping device
US2550855A (en) Thread rolling apparatus
US1909135A (en) Spindle construction for machine tools
US2331381A (en) Profile grinding machine
US1690425A (en) End-thrust bearing for grinding-wheel spindles
US2555419A (en) Live center chuck
US1446305A (en) Work holding and ejecting mechanism
US1501690A (en) Device for burnishing surfaces of rolls for roller bearings
US2021536A (en) Auxiliary spindle for grinding wheels
US2749807A (en) Device for cutting long threads
US2144490A (en) Rotary work support for a machine tool
US2842982A (en) Movement transmission
US2025881A (en) Method and means for reworking textile rings
US1902176A (en) Mandrel for hollow crank shafts
US2356678A (en) Mandrel
US1198030A (en) Lathe-center.